Abstract
Wind power forecasting plays a vital role in renewable energy production. Accurately forecasting wind energy is a significant challenge due to the uncertain and complex behavior of wind signals. For this purpose, accurate prediction methods are required. This paper presents a new hybrid approach of principal component analysis (PCA) and deep learning to uncover the hidden patterns from wind data and to forecast accurate wind power. PCA is applied to wind data to extract the hidden features from wind data and to identify meaningful information. It is also used to remove high correlation among the values. Further, an optimized deep learning algorithm with a TensorFlow framework is used to accurately forecast wind power from significant features. Finally, the deep learning algorithm is fine-tuned with learning error rate, optimizer function, dropout layer, activation and loss function. The algorithm uses a neural network and intelligent algorithm to predict the wind signals. The proposed idea is applied to three different datasets (hourly, monthly, yearly) gathered from the National Renewable Energy Laboratory (NREL) transforming energy database. The forecasting results show that the proposed research can accurately predict wind power using a span ranging from hours to years. A comparison is made with popular state of the art algorithms and it is demonstrated that the proposed research yields better predictions results.
Highlights
Energy production has been investigated widely due to the risk of energy crises and global climate change
The results have shown that prediction accuracy is better than using a back propagation neural network (BPNN) [26]
The results have shown that the proposed method yields better accuracy as compared to a support vector machine (SVM) and neural network [27]
Summary
Energy production has been investigated widely due to the risk of energy crises and global climate change. The production of renewable energy performs an essential role in the economic growth of a country. Wind power is considered a necessary resource for electrical power production. The installed capacity of wind farms worldwide has increased 30 times to a total of 435 GW, with 17%. In 2020, wind energy is expected to supply approximately. 12% of the total worldwide requirement [1,2]. Wind speed may be affected by height and different types of obstacles. Intelligent and accurate power forecasting tools are required to improve the accuracy of stable power predictions and decrease operational costs. Many kinds of research have designed different types of algorithms to forecast wind power. The wind power forecasting methods are divided into three main categories, i.e., numeric weather
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